2011年,河北师范大学获学士学位;
2019年,中国科学院植物研究所获博士学位;
2019年-2021年,中国科学院植物研究所从事博士后/特别研究助理;
2021年-2023年,中国科学院植物研究所助理研究员;
2023年-至今,中国科学院植物研究所副研究员。
2023年 中国植物学会新苗人才。
2011年,河北师范大学获学士学位;
2019年,中国科学院植物研究所获博士学位;
2019年-2021年,中国科学院植物研究所从事博士后/特别研究助理;
2021年-2023年,中国科学院植物研究所助理研究员;
2023年-至今,中国科学院植物研究所副研究员。
2023年 中国植物学会新苗人才。
1. 作物逆境离子的代谢特征与遗传调控
针对重金属污染、微量矿质元素贫瘠、盐碱胁迫等离子逆境条件,研究粮食作物和饲草作物在离子胁迫环境下的元素代谢特征及遗传调控网络,揭示作物适应离子逆境的遗传调控机制。
2. 离子逆境适生作物智能分子育种技术研发
基于大数据融合与机器算法,构建智能分子育种技术体系,开展安全优质、营养强化、耐逆的离子逆境适生种质创新。
Zhu X#, Yan HL#, Tu C, Li RJ, Zhang H, Li Y, Yang S, Zhao FJ , Peijnenburg W J G M, Ma M, He ZY*, Luo YM*. 2025. Promoter pLsi1 driven PvACR3 expression in rice enhances arsenic phytoextraction in paddy soils. Eco-Environment and Health, https://doi.org/10.1016/j.eehl.2025.100168
Yan HL#, Peng ZM#, Zhang HZF,Wang BH, Xu WX, He ZY*. 2024, Cadmium minimization in crops: a trade‐off with mineral nutrients in safe breeding. Plant Cell & Environment, 48: 838-851.
Liu P, Sun L, Zhang Y, Tan YJ, Zhu YX, Peng C, Wang JR, Yan HL, Mao DH, Liang GH, Liang G, Li XX, Liang YT, Wang F, He ZY, Tang WB, Huang DY, Chen CY*. 2024. The metal tolerance protein OsMTP11 facilitates cadmium sequestration in the vacuoles of leaf vascular cells for restricting its translocation into rice grains. Molecular Plant, 7:1733-1752.
Yan HL, Zhang HZF, Hao SN, Wang LY, Xu WX, Ma M, Luo YM, He ZY*. 2023. Cadmium contamination in food crops: Risk assessment and control in smart age. Critical Reviews in Environmental Science and Technology, 53:1643-1661
Yan HL, Liu RX, Peng ZM, Zhang HZF, Hao SN, Guo HY, Wang BH, Wang WP, Yu YJ, Zhang HL, Qian TH, Xu WX, Ma M, He ZY*. 2023. A phytoexclusion strategy for reducing contamination risk of rice based on low-Cd natural variations pyramid of root transporters. Journal of Hazardous Materials, 458:131865
Yan HL, Guo HY, Xu WX, Dai CH, Wilson K, Xie JY, Li T, Zhang HZF, Ma M, Hao ZF*, He ZY*. 2023.GWAS-assisted genomic prediction of cadmium accumulation in maize kernel with machine learning and linear statistical methods. Journal of Hazardous Materials, 441: 129929
Yan HL, Guo HY, Li T, Zhang HZF, Xu WX, Xie JY, Zhu XY, Yu YJ, Chen J, Zhao SQ, Xu J, Hu MJ, JiangYG, Zhang HL Ma M, He ZY*. 2023. High-precision early warning system for rice cadmium accumulation risk assessment. Science of The Total Environment, 859: 160135
Yan HL, Xu WX, Zhang T, Feng L, Liu RX, Wang LY, Wu LL, Zhang H, Zhang XH, Li T, Peng ZM, Jin C, Yu YJ, Ping JA, Ma M, He ZY*. 2022. Characterization of a novel arsenite long-distance transporter from arsenic hyperaccumulator fern Pteris vittata. New Phytologist, 233: 2488-2502
Huan YM, Li FB, Yi JC, Yan HL, He ZY, Li XM*. 2022. Transcriptomic and physio-biochemical features in rice (Oryza sativa L.) in response to mercury stress. Chemosphere, 309: 136612
Feng L#, Yan HL#, Dai CH, Xu WX, Gu FY, Zhang F, Li T, Xian JY, He XQ, Yu YJ, Ma M, Wang F* , He ZY*. 2020. The systematic exploration of cadmium-accumulation characteristics of maize kernel in acidic soil with different pollution levels in China. Science of the Total Environment, 729: 138972
Liu ZQ, Li HL, Zeng XJ, Lu C, Fu JY, Guo LJ, Kimani WM, Yan HL, He ZY, Hao HQ*. Jing HC. 2020. Coupling phytoremediation of cadmium-contaminated soil with safe crop production based on a sorghum farming system. Journal of Cleaner Production, 275: 123002
Zhang F, Gu FY, Yan HL, He ZY, Wang BL, Liu H, Yang TT, Wang F*. 2020. Effects of soaking process on arsenic and other mineral elements in brown rice. Food Science and Human Wellness, 9(2): 168-175
Yan HL, Xu WX, Xie JY, Gao YW, Wu LL, Sun L, Feng L, Chen X, Zhang T, Dai CH, Li T, Lin XN, Zhang ZY, Wang XQ, Li FM, Zhu XY, Li JJ, Li ZC, Chen CY, Ma, M, Zhang HL* , He ZY*. 2019. Variation of a major facilitator superfamily gene contributes to differential cadmium accumulation between rice subspecies. Nature Communications, 10: 2562
Yan HL, Gao YW, Wu LL, Wang LY, Zhang T, Dai CH, Xu WX, Feng L, Ma M, Zhu YG*, He ZY*. 2019. Potential use of the Pteris vittata arsenic hyperaccumulation-regulation network for phytoremediation. Journal of Hazardous Materials, 368: 386-396
Zhang T, Xu WX, Lin XN, Yan HL, Ma M, He ZY*. 2019. Assessment of heavy metals pollution of soybean grains in North Anhui of China. Science of The Total Environment, 646: 914-922
He ZY#, Yan HL#, Chen YS, Shen HL, Xu WX, Zhang HY, Shi L, Zhu YG, Ma M. 2016. An aquaporin PvTIP4;1 from Pteris vittata may mediate arsenite uptake. New Phytologist, 209: 746-761
Shen HL, He ZY*, Yan HL, Xing ZN, Chen YS, Xu WX, Xu WZ, Ma M. 2014. The fronds tonoplast quantitative proteomic analysis in arsenic hyperaccumulatorPteris vittata L. Journal of Proteomics, 105: 46-57
Xu WZ, Dai WT, Yan HL, Li S, Shen HL, Chen YS, Xu H, Sun YY, He ZY, Ma M. 2015. Arabidopsis NIP3;1 plays an important role in arsenic uptake and root-to-shoot translocation under arsenite stress conditions. Molecular Plant, 8: 722-733
王冰涵, 闫慧莉*,何振艳*. 2025. 元素原位显微成像技术在植物领域的应用,电子显微学报, 47: 117-126
王璐瑶,陈謇,赵守清,闫慧莉,许文秀,刘若溪,麻密,虞轶俊*,何振艳*. 2022. 水稻镉积累特性的生理和分子机制研究概述. 植物学报, 57: 236-249
徐君,李婷,胡敏骏,蒋玉根,闫慧莉,许文秀,虞轶俊,何振艳*. 2022. 水稻籽粒镉积累KASP分子标记LCd-38的开发与利用. 中国农业科技导报, 24(3): 40-47
李婷,胡敏骏,徐君,蒋玉根,闫慧莉,虞轶俊,何振艳*. 2021. 镉低积累水稻品种选育研究进展. 中国农业科技导报, 23(11): 36-46
张田,闫慧莉,何振艳*.2020. 蜈蚣草中砷超富集的分子机制研究进展. 生物工程学报, 36(3): 397-406
品种何振艳,许文秀,闫慧莉,景海春,刘智全,郝爽楠,牛皓,王玉斌,吕鑫,平俊爱. 木稷1号,中华人民共和国农业部,GPD高粱(2023)110108
何振艳,许文秀,闫慧莉,景海春,刘智全,郝爽楠,王玉斌,吕鑫,牛皓,平俊爱. 木稷2号,中华人民共和国农业部,GPD高粱(2023)110109
何振艳,许文秀,闫慧莉,郝爽楠,段国旗,王玉斌,吕鑫,牛皓,平俊爱. 木稷3号,中华人民共和国农业部,GPD高粱(2025)110001
何振艳,许文秀,闫慧莉,郝爽楠,段国旗,王玉斌,牛皓,吕鑫,平俊爱. 木稷4号,中华人民共和国农业部,GPD高粱(2025)110002